DEP0010676DA - Device for reducing the oscillations of the pointer in remote display systems working according to the pulse frequency method - Google Patents

Description

SIMEHS-SOHUCEBRiDWERKE Irlangen ₉ June 7th, 1950 Alstiengesellselaaft

PA 13/48 1161

Alctemeie heiii ρ 10676 VIIIb / 74b

Device for reducing the curve of the pointer in processors according to the pulse frequency

I ^^ Sl ^^ WU -—— ——.

With remote measurement and counting using the pulse frequency method, the frequency of the pulses transmitted from the transmitter to the receiver is proportional to the measured variables or a function thereof. During be summed only by a counter in the remote counting the incoming pulses need "they BiUoaen for remote measurement by a special device into a JSeigeraueschlag reshaped Bexait the pointer deflection not su strong swings in fakte the Irapulee, you äm meter is a large inertia and a strong! damping, in addition one uses much higher pulse frequencies than for the remote payment · This is cumbersome and makes such remote control systems expensive ·

The invention eliminates these deficiencies

Gt / fler

if the same lower pulse frequency au use for remote measurement and counting without the pointer oscillations disturbing the reading. However, the invention can also be used wherever disruptive pointer oscillations are feared in telemetry systems. According to the invention, the rotating part of an eddy current brake, the other part of which is fixed, is connected to one Ead of a differential gear, the other Ead is interposed with a damping element or an idle gear the size of a step of a stepping mechanism with this stepping mechanism, which moves by one step with each incoming pulse is incremented, in coupled compound and is also a clamping mechanism, for example a Peder _v with the rotary part of the eddy current brake, while d _a s pinion gear of the differential gear is connected to a display device ·

An embodiment of the invention is shown in the drawing »

A pulse generator 1 sends else Pemleitung 2 to a receiving relay 3 the more pulses, the larger the fernzumessende size is "The Selais 3 switches by means Hinke 4 and ratchet wheel 5 a shaft 6 proceeds, which is connected to one end of a spring 7 * The the other end of the spring is attached to a flywheel 8. The flywheel 8 drives a disk 15 via a spring 14, which is aperiodically damped by a magnet 16. This disk is connected to the first part 11 of a differential gear 10, the second part 12 of which is driven in the opposite direction by the disk 8 and the third part 13 of which is connected to the pointer 17 of a device 18 "

The arrangement operates folgendermaseen: When the arrival of a pulse, the shaft 6 is rotated and thereby tensioned, the Eeder 7 via the Scarittsehaltwerk 4.5, the mm the Seheifee 8 accelerates, importing laughing of elastic and Sragheitslcräfte is the speed of the pulley 8 is equal to the average speed of the Wave 6 "Parts 7 and 8 more or less completely compensate for the movement shocks of wave 6"

The rotation of the disk 8 also tensions the peder 14 g © ~, which accelerates the disk 15 * The movement of the disk T5 is dampened by the magnet 16 φ * The state of inertia is reached when the average speed of the disk 15 is equal to the average speed of the disk 8 is "In this case, the torque exerted by the spring 14 is equal to the braking torque of the magnet 16" But since the braking torque of the magnet is proportional to the SErea number of the disk 15, this also applies to the tension of the spring 14. The disk 15 is consequently opposite _{of the disk S, the more lagging i} , the higher its rotational speed, i.e. the faster the indexing mechanism 4, 5 rotates the shaft 6. The helix angle of the disk 15 is therefore proportional to the respective pulse frequency

This Kacheilwinkel is determined by the differential gear 10 and transferred to the pointer 17 * So it is the deflection of the pointer 17 is proportional to the pulse frequency and therefore also proportional to the large amount to be televised.

As Pig-2 shows, the washer 8 and the spring 7 can also be omitted and replaced by a gap between parts 70, 80 “The Iseergang has the rosse of a stop step of the step switch 4.5.

Me lrfiadisag has the advantage that the pointer ^{deflection I 1} Ifeieli does not change in time with the Iaipulee, as long as the egg size is. Soap "reads hat" Mes still applies when the pulse frequency, as in remote counting, is relatively small ssvTlschen the shaft 6 and the spring 7 Bseh © in © another spring aaä also another flywheel is switched on, which compensates the drive bumps for the Seheitse 8 *

Claims (2)

1 claim 2. Mgaren Claim. Apparatus asr reduction of Seigereehwingungen in me of Ispui afrequenzverfahren srlseiteaden Beratanseigesailagen _5, Sjmhee * those in which the same frequency is versiendet to Pernmeseung and counting _# gekennselelmet _t characterized in that the rotary part (15) eiaer eddy current brake {15,16) whose other part (16) is fixed, to which one Had (1t) of a differential gear (10) is connected and the other Ead (12) of the differential gear with the interposition of a mapping element (7, 8, Pig, 1) © that of an empty gear (70, 80, Pig, the size of one step of an indexing mechanism (4,5) ait "BU mm " with each incoming impulse is connected to an indexing mechanism (4,5) which advances one step and at the same time via a tensioning mechanism (leather 14) with the The turning part {* 5) of the?; Irbeliitroffiisr? Se (15, 16) is lapped, while the differential gear (1?) Of the differential gear (Io) is connected to an adjustment device (17).